Thyroid Diseases: Kloos RT

Sherman SI, Angelos P, Ball DW, Byrd D, Clark OH, Daniels GH, Dilawari RA, Ehya H, Farrar WB, Gagel RF, Kandeel F, Kloos RT, Kopp P, Lamonica DM, Loree TR, Lydiatt WM, McCaffrey J, Olson JA, Ridge JA, Shah JP, Sisson JC, Tuttle RM, Urist MM, Anonymous00403. · The University of Texas M.D. Anderson Cancer Center, USA. · J Natl Compr Canc Netw. · Pubmed #17623612 No free full text.

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Sherman SI, Angelos P, Ball DW, Beenken SW, Byrd D, Clark OH, Daniels GH, Dilawari RA, Ehya H, Farrar WB, Gagel RF, Kandeel F, Kloos RT, Kopp P, Lamonica DM, Loree TR, Lydiatt WM, McCaffrey J, Olson JA, Ridge JA, Robbins R, Shah JP, Sisson JC, Thompson NW, Anonymous00251. · University of Texas M.D. Anderson Cancer Center, USA. · J Natl Compr Canc Netw. · Pubmed #16002006 No free full text.

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Sipos JA, Kloos RT. · The Ohio State University Medical Center, Columbus, OH 43210, USA. · Clin Adv Hematol Oncol. · Pubmed #18997668 No free full text.

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Neff RL, Farrar WB, Kloos RT, Burman KD. · Department of Surgery, Division of Surgical Oncology, The Ohio State University, The Arthur G James Cancer Hospital and Richard J Solove Research Institute, Columbus, OH 43210-1228, USA. · Endocrinol Metab Clin North Am. · Pubmed #18502341 No free full text.

Abstract: Anaplastic thyroid cancer is an uncommon, typically lethal malignancy of older adults with no effective systemic therapy. The mean survival time is usually less than 6 months from the time of diagnosis and, unfortunately, this outcome is not fundamentally altered by available treatments. Histologic tissue confirmation is recommended if the diagnosis is not absolutely certain to exclude tumors with better prognosis or that require different treatment. Patency of the airway should be kept in mind throughout the patient's course and individuals with impending airway obstruction, in the absence of imminent death from other sites of disease, should be considered for a tracheostomy to secure the airway. Enrollment in meaningful clinical trials should be given the highest priority at all decision points.

Kloos RT. · The Ohio State University, 446 McCampbell Hall, 1581 Dodd Drive, Columbus, OH 43210-1296, USA. · J Clin Endocrinol Metab. · Pubmed #18463349 links to  free full text

Abstract: The 10-yr survival of differentiated thyroid cancer is about 76-93%, and at least 10% of patients manifest tumor persistence or recurrence, depending on their disease stage, after initial therapy, which typically includes total thyroidectomy and (131)I ablation. Previously the realization of their residual/recurrent cancer often presented simultaneously with the additional surprise that they lacked pathological uptake on their diagnostic whole-body radioiodine image despite their elevated stimulated serum thyroglobulin (Tg) level, a scenario referred to as the scan-negative, Tg-positive patient. Now that serum Tg and neck ultrasonography have supplanted the diagnostic whole-body scan because of its inferior sensitivity, patients are often recognized to harbor residual disease without radioiodine imaging, and a new challenging scenario has emerged: the ultrasonography-negative, Tg-positive patient. Similarities and differences of these two patient populations aside, these Tg-positive patients are frequently encountered, and some are considered for additional (131)I therapy, although now typically after negative anatomic +/- (18)F-fluorodeoxyglucose positron emission tomography imaging or in the setting of known or suspected distant metastases already localized by anatomic imaging. Thus, the scan-negative, Tg-positive patient of today differs from those of the past, but the term still has relevance to current practice. The optimal evaluation and treatment of these patients remain controversial, partly because many of these patients will not die from thyroid cancer, and there are no randomized trials to demonstrate that intervention could have prevented the deaths that do occur. Here a case is presented that adds the complexity of advanced age, and one approach to these challenging patients is offered.

Hall NC, Kloos RT. · Division of Nuclear Medicine, The Ohio State University, The Arthur G. James Cancer Hospital and Richard J. Solove Research Center, Columbus, Ohio 43210-1296, USA. · Arq Bras Endocrinol Metabol. · Pubmed #17891243 links to  free full text

Abstract: Positron emission tomography (PET) is a rapidly evolving imaging modality that has gained widespread acceptance in oncology, with several radionuclides applicable to thyroid cancer. Thyroid cancer patients have been studied most commonly using 18F-Fluorodeoxyglucose (FDG)-PET, with perhaps the greatest utility being the potential localization of tumor in differentiated thyroid cancer (DTC) patients who are radioiodine whole body scan (WBS) negative and thyroglobulin (Tg) positive. Also of value is the identification of patients unlikely to benefit from additional 131I therapy and identification of patients at highest risk of disease-specific mortality, which may prompt more aggressive therapy or enrollment in clinical trials. Emerging data suggest that PET/CT fusion studies provide increased accuracy and modify the treatment plan in a significant number of DTC cases when compared to PET images alone. However, studies documenting improvements in survival and tumor recurrence attributable to FDG-PET imaging in thyroid cancer patients are lacking. Specific case examples of thyroid cancer patients who appear to have benefited from FDG-PET imaging do exist, while less data are available in the setting of anaplastic or medullary thyroid carcinoma. This article reviews the utility and limitations of FDG-PET in DTC management, and offers practical recommendations.

Kloos RT. · The Ohio State University, 446 McCampbell Hall, 1581 Dodd Drive, Columbus, OH 43210-1296, USA. · Curr Treat Options Oncol. · Pubmed #15967085 No free full text.

Abstract: The incidence of epithelial derived thyroid cancer (papillary thyroid cancer and follicular thyroid cancer, known collectively as differentiated thyroid cancer) is rising. About 80% of patients with thyroid cancer have PTC and are best treated with thyroidectomy and functional lymph node dissection, followed by radioiodine ablation or therapy and performance of a posttreatment whole-body scan, followed by thyroid stimulating hormone (TSH) suppression. One year after radioiodine administration, the use of sensitive thyroglobulin (Tg) assays can separate the vast majority of patients with persistent disease from those who are free of disease and unlikely to have recurrent disease all without the need for repeat whole-body radioiodine imaging. Patients with detectable serum Tg during TSH suppression (Tg-on) or Tg that rises above 2 ng/mL after TSH stimulation (TSH-Tg) are highly likely to harbor residual tumor. TSH stimulation can be achieved using either thyroid hormone withdrawal or recombinant human TSH (rhTSH). Highly skilled screening neck ultrasonography can identify a few additional patients with subcentimeter residual neck lymph node metastases not detected by TSH-Tg. However, ultrasonography and chest computed tomography (CT) are most critical for tumor localization in those patients with Tg values that suggest residual disease or in those patients with persistent antithyroglobulin antibodies (TgAb) that falsely lower Tg measurement. TgAb quantitative titers typically resolve steadily over just a few years in patients free of disease after initial therapy. Another paradigm shift is the recognition that most patients who eventually achieve freedom from disease do so by surgery with fewer patients cured by repetitive radioiodine treatments, and even fewer cured with external beam radiation. Patients who appear to be free of disease require a lifetime of follow-up to optimize levothyroxine treatment, and they will undergo periodic stimulation testing because some will still manifest recurrent disease. Patients with persistent disease despite negative ultrasonography, chest CT, and whole-body radioiodine imaging may have a tumor identified by fluorodeoxyglucose positron emission tomography, optimally performed with combined TSH stimulation and image fusion with CT or magnetic resonance imaging. Patients with metastatic disease who are unresponsive to conventional treatment are encouraged to participate in increasingly available thyroid cancer-specific clinical trials using targeted experimental oral or intravenous chemotherapeutic agents to address this tumor that has historically proven resistant to conventional chemotherapeutic agents.

Shen DH, Kloos RT, Mazzaferri EL, Jhian SM. · Department of Physiology and Cell Biology, The Ohio State University, Columbus, USA. · Thyroid. · Pubmed #11396700 No free full text.

Abstract: Radioiodine-concentrating activity in thyroid tissues has allowed the use of radioiodine as a diagnostic and therapeutic agent for patients with thyroid disorders such as well-differentiated thyroid cancer. However, some extrathyroidal tissues also take up radioiodine, contributing to unwanted side effects of radioiodine therapy. Now that the molecule that mediates radioiodine uptake, the sodium iodide symporter (NIS), has been cloned and characterized, it may be possible to develop novel strategies to differentially modulate NIS expression and/or activity, enhancing it in target tissues and impeding it in others. In addition to restoring NIS expression/activity to ensure sufficient radioiodine uptake for the diagnosis and treatment of advanced thyroid cancers, we envision that it may be possible to selectively increase or confer NIS expression/activity in tumors of nonthyroidal tissues to facilitate the use of radioiodine in their diagnosis and treatment. We also consider the molecular basis of thyroid and nonthyroid disorders that may be complicated by NIS deregulation. Finally, we explore the use of NIS as an imaging reporter gene to monitor the expression profile of the transgene in transgenic mouse animal models and in patients undergoing gene therapy clinical trials.

Mazzaferri EL, Kloos RT. · The Center for Health Outcome Policy and Evaluation Studies, The Ohio State University, Columbus, Ohio 43210-1228, USA. · J Clin Endocrinol Metab. · Pubmed #11297567 links to  free full text

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Mazzaferri EL, Kloos RT. · Department of Internal Medicine, The Ohio State University, Columbus, USA. · Thyroid. · Pubmed #11041454 No free full text.

Abstract: Mortality rates from thyroid cancer have fallen significantly in recent decades, almost certainly as the result of earlier diagnosis and improved treatment of differentiated (papillary and follicular) thyroid cancer. Enhanced survival is likely a result of early diagnosis and therapy applied at a disease stage when treatment is most effective. In the United States and Europe, most patients at high risk for relapse and death from thyroid cancer are treated with total or near-total thyroidectomy and receive radioiodine ablation of residual normal or malignant thyroid tissue, followed by treatment with thyroid hormone, a strategy that cures more than 80% of patients. Still, some die of the disease and nearly 15% have local recurrences, while another 5% to 10% develop distant metastases. Over 50% of recurrences appear in the first five years, but distant metastases may surface years, and sometimes decades, after initial therapy. Much has been learned about risk stratification to predict recurrence and death from thyroid cancer but individual patients continue to have adverse outcomes not always foreseen by a low tumor stage. Follow-up must accordingly be meticulous and prolonged. The National Cancer Center Network (NCCN) has recently established consensus practice guidelines that give explicit advice about the diagnosis and management of benign and malignant thyroid tumors, including paradigms for long-term follow-up and the treatment of recurrent disease. The guidelines confirm that diagnostic scanning with 131I and measurement of serum thyroglobulin (Tg) levels are the mainstay of follow-up, offering the opportunity to detect recurrent or persistent cancer at very early stages. These guidelines advocate TSH-stimulated serum Tg measurements, done either during thyroid hormone withdrawal or stimulation with recombinant human TSH (rhTSH, Thyrogen), that often identify the presence of cancer well before diagnostic whole-body scanning or other imaging studies can spot the tumor, which offers the opportunity to treat recurrent disease at an early stage. The use of rhTSH adds a new dimension to long-term follow-up that avoids putting patients through the symptoms of hypothyroidism, and offers the opportunity to follow some patients with rhTSH-stimulated serum Tg levels without performing 131I whole-body scans. A multicenter international study has shown that serum Tg measurements alone are not as sensitive in the identification of patients with persistent or recurrent tumor as are rhTSH-stimulated serum Tg determinations. Although not yet approved for preparation of patients for 131I therapy, rhTSH has been used successfully in a compassionate use program for this purpose in a relatively large number of patients. Formal clinical investigations now planned to provide guidelines for the use of rhTSH for therapeutic 131I portend a new set of effective therapeutic paradigms for the management of differentiated thyroid cancer.

Cooper DS, Doherty GM, Haugen BR, Kloos RT, Lee SL, Mandel SJ, Mazzaferri EL, McIver B, Sherman SI, Tuttle RM, Anonymous00638. · Sinai Hospital of Baltimore and Johns Hopkins University School of Medicine, MD, USA. · Thyroid. · Pubmed #16420177 No free full text.

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Kloos RT, Ringel MD, Knopp MV, Hall NC, King M, Stevens R, Liang J, Wakely PE, Vasko VV, Saji M, Rittenberry J, Wei L, Arbogast D, Collamore M, Wright JJ, Grever M, Shah MH. · Ohio State University, Department of Internal Medicine, Molecular Virology, Immunology, and Genetics, Pathology, Radiology, Center for Biostatistics, Ohio State University, Columbus, OH 43210, USA. · J Clin Oncol. · Pubmed #19255327 No free full text.

Abstract: PURPOSE: Based on the pivotal role of Ras-Raf-MAP-ERK signaling and vascular endothelial growth factor (VEGF) in papillary thyroid cancer (PTC), we conducted a phase II clinical trial of sorafenib targeting RAF and VEGF receptor kinases in PTC. PATIENTS AND METHODS: The primary end point was the objective response rate. Secondary end points included response correlation with serum thyroglobulin (Tg); functional imaging; tumor genotype; and signaling inhibition in tumor biopsies. Using a Simon minimax two-stage design, 16 or 25 chemotherapy-naïve metastatic PTC patients were to be enrolled in arm A (accessible tumor for biopsy). Arm B patients had other subtypes of thyroid carcinoma or prior chemotherapy, and did not require tumor biopsies. Patients received 400 mg orally twice per day of sorafenib. Response was assessed every 2 months using RECIST (Response Evaluation Criteria in Solid Tumors). RESULTS: Of 41 PTC patients, six patients had a partial response (PR; 15%; 95% CI, 6 to 29) and 23 patients (56%; 95% CI, 40 to 72) had stable disease longer than 6 months. Median duration of PR was 7.5 months (range, 6 to 14). Median progression-free survival was 15 months (95% CI, 10 to 27.5). In 14 (78%) of 18 Tg-assessable PTC patients, Tg declined more than 25%. Common grade 3 adverse events included hand-foot skin reaction, musculoskeletal pain, and fatigue. BRAF mutation was detected in 17 (77%) of 22 PTCs analyzed. Four of 10 paired tumor biopsies from PTC patients showed a reduction in levels of vascular endothelial growth factor receptor phosphorylation, ERK phosphorylation, and in VEGF expression during sorafenib therapy. No PRs were noted among non-PTC patients. CONCLUSION: Sorafenib is reasonably well-tolerated therapy with clinical and biologic antitumor activity in metastatic PTC.

Braverman L, Kloos RT, Law B, Kipnes M, Dionne M, Magner J. · Section of Endocrinology, Diabetes, and Nutrition, Boston University, Boston, MA 02118-2308, USA. · Endocr Pract. · Pubmed #18996810 No free full text.

Abstract: OBJECTIVE: To assess the safety, adverse effects, and radioactive iodine uptake (RAIU) of recombinant human thyrotropin (rhTSH) using a range of doses in patients with multinodular goiters. METHODS: In this open-label study conducted between June 2002 and December 2004, euthyroid patients with small nontoxic multinodular goiters and normal thyrotropin concentrations were recruited from 4 sites in the United States. Baseline assessments included thyroid function tests, electrocardiogram, Holter monitoring, hyperthyroid symptom scale, flow-volume loop, and measurement of thyroglobulin and thyroperoxidase antibodies. Patients had a baseline 24-hour scan and thyroid iodine I 123 ((123)I) uptake evaluated at 6, 24, and 48 hours after rhTSH administration. Each patient received a single intramuscular injection of 0.03-mg, 0.1-mg, or 0.3-mg rhTSH followed 24 hours later by 400 microCi (123)I orally. Iodine 123 uptakes were again measured 6, 24, and 48 hours later, and a scintigram scan was performed at 24 hours. Thyroid function tests, flow-volume loop, Holter monitoring and/or electrocardiograms, and thyroid ultrasonography to assess thyroid size were performed serially. RESULTS: Twenty-eight patients participated. Median goiter size was 20 mL (range, 7-79 mL). After each rhTSH dose, the radioiodine uptake approximately doubled at each time point compared with baseline uptake. Small rises in serum thyroxine and triiodothyronine were seen in some patients, especially after 0.3-mg rhTSH, and mild symptoms of hyperthyroidism developed in several patients. Flow-volume loop showed transient, mild asymptomatic worsening in 1 patient with a 35.2 mL goiter, although thyroid volume measurements were unchanged. Minor electrocardiogram and/or Holter changes were seen in several patients. CONCLUSIONS: A flat dose-response curve exists over the range of rhTSH doses tested, with an approximate doubling of thyroid RAIU. All patients tolerated rhTSH well, but the rise in thyroid hormone levels and adverse effects after rhTSH doses of 0.1 mg or higher theoretically might not be well tolerated in older or sicker patients and appear unjustified given the lack of a greater rise in RAIU compared with the 0.03-mg dose. Future studies evaluating rhTSH doses less than 0.1 mg in patients with multinodular goiter are justified.

Woyach JA, Kloos RT, Ringel MD, Arbogast D, Collamore M, Zwiebel JA, Grever M, Villalona-Calero M, Shah MH. · Department of Internal Medicine, The Ohio State University, Columbus, OH 43210, USA. · J Clin Endocrinol Metab. · Pubmed #18854394 No free full text.

Abstract: CONTEXT: Aberrant histone deacetylase activity is seen in a variety of malignancies, and histone deacetylase inhibitors such as vorinostat have been shown to induce cell death and sensitize cells to cytotoxic chemotherapy in thyroid cancer cell lines. This phase II study was undertaken to assess objective response to vorinostat in patients with advanced thyroid cancer. EXPERIMENTAL DESIGN: A total of 19 patients with differentiated thyroid cancer (n = 16) and medullary thyroid cancer (n = 3) were enrolled in the study. Patients received oral vorinostat at a starting dose of 200 mg twice daily, with dose adjustments allowed as necessary for toxicity. Patients were treated for 2 wk, followed by 1 wk off therapy (3-wk cycle) until disease progression or study withdrawal. Responses were measured by Response Evaluation Criteria in Solid Tumors criteria and correlated with tumor markers. RESULTS: No patient achieved a partial or complete response. Median duration of therapy in patients with differentiated thyroid cancer was 17 wk, whereas in medullary thyroid cancer patients it was 25 wk. Reasons for termination included progression of disease by RECIST criteria (n = 7), clinical progression (n = 3), and adverse events (AEs) (n = 9). AEs were primarily grade 1-3; no clinical grade 4 or grade 5 events were observed. Clinical grade 3 AEs consisted of fatigue, dehydration, ataxia, pneumonia, bruises, and deep vein thrombosis. Severe thrombocytopenia was seen in seven patients (grade 3, n = 5; grade 4, n = 2) and was associated with minor bleeding or bruises. CONCLUSIONS: Vorinostat at this dose and schedule is not an effective treatment for advanced thyroid cancer.

Mrozek E, Kloos RT, Ringel MD, Kresty L, Snider P, Arbogast D, Kies M, Munden R, Busaidy N, Klein MJ, Sherman SI, Shah MH. · Division of Hematology, Departments of Internal Medicine, The Ohio State University Thyroid Cancer Unit, The Ohio State University Medical Center, Arthur G. James Cancer Hospital and Richard J. Solove Research Institute, Columbus, Ohio 43210, USA. · J Clin Endocrinol Metab. · Pubmed #16522694 links to  free full text

Abstract: CONTEXT: There is increased cyclooxygenase-2 (COX-2) expression in malignant thyroid nodules compared with nonneoplastic and benign thyroid tissue. OBJECTIVE: The objective of the study was to evaluate the efficacy of celecoxib, a selective COX-2 inhibitor, in treating patients with progressive metastatic differentiated thyroid cancer (DTC) and to explore the relationship of clinical response to tumor COX-2 expression with immunohistochemistry in a subset of patients. DESIGN: The study was a prospective phase II trial with Fleming single-stage design powered at 80% with a 5% rejection error to detect more than 20% progression-free survival at 12 months. SETTING: Ambulatory patients were from tertiary referral academic medical centers. PATIENTS: Patients in the study had progressive metastatic DTC and had failed prior standard therapy. INTERVENTION: Patients were treated with celecoxib 400 mg orally twice a day for 12 months. MAIN OUTCOME MEASURE: The main outcome measure was progression-free survival at 12 months of treatment using Response Evaluation Criteria in Solid Tumors and/or serum thyroglobulin. RESULTS: Twenty-three of 32 patients experienced progressive disease or stopped therapy due to toxicity, thus fulfilling the intent-to-treat study endpoint for celecoxib failure. One patient achieved partial response, and one patient completed 12 months of therapy progression-free. The patient with partial response was on therapy along with seven other patients when the study was terminated. CONCLUSIONS: Celecoxib 400 mg orally twice per day fails to halt progressive metastatic DTC in most patients.

Ryan LE, Braverman LE, Cooper DS, Ladenson PW, Kloos RT. · Department of Internal Medicine, Division of Endocrinology, Diabetes, and Metabolism, The Ohio State University, Columbus, OH, 43210, USA. · Thyroid. · Pubmed #15068630 No free full text.

Abstract: Thyrotoxicosis is a well-documented and studied complication of treatment with amiodarone, but little has been written about the risks and treatment of recurrent thyrotoxicosis upon re-exposure to amiodarone. One such case is outlined here and discussed by a panel of experts.

Hänscheid H, Lassmann M, Luster M, Thomas SR, Pacini F, Ceccarelli C, Ladenson PW, Wahl RL, Schlumberger M, Ricard M, Driedger A, Kloos RT, Sherman SI, Haugen BR, Carriere V, Corone C, Reiners C. · Klinik und Poliklinik für Nuklearmedizin, Universität Würzburg, D-97080 Würzburg, Germany. · J Nucl Med. · Pubmed #16595499 links to  free full text

Abstract: Technical aspects and results of the dosimetric assessments of postoperative radioiodine ablation in the framework of an international, prospective, controlled, randomized, comparative study of the effectiveness of ablation therapy with 3.7 GBq (131)I in differentiated thyroid cancer after stimulation with recombinant human TSH (rhTSH) or by thyroid hormone withdrawal (THW) are presented. METHODS: Sixty-three patients were randomized after thyroidectomy to either the THW or the rhTSH group. Scintigraphic neck images were acquired starting 48 h after radioiodine administration to assess biokinetics in the thyroid remnant. The activity in blood samples was quantified and data from whole-body probe measurements and scintigraphic whole-body scans were combined to deduce retention curves in blood and whole body, respectively. The absorbed dose to the blood was calculated using a modified approach based on the formalism of the MIRD Committee of the Society of Nuclear Medicine. RESULTS: The effective half-time in the remnant thyroid tissue was significantly longer after rhTSH than THW (67.6 +/- 48.8 vs. 48.0 +/- 52.6 h, respectively; P = 0.01), whereas the observed differences of the mean 48-h (131)I uptakes (0.5% +/- 0.7% vs. 0.9% +/- 1.0% after THW; P = 0.1) and residence times (0.9 +/- 1.3 vs. 1.4 +/- 1.5 h after THW; P = 0.1) between the rhTSH and THW groups were not statistically significant. The specific absorbed dose to the blood was significantly (P <0.0001) lower after administration of rhTSH (mean, 0.109 +/- 0.028 mGy/MBq; maximum, 0.18 mGy/MBq) than after THW (mean, 0.167 +/- 0.061 mGy/MBq; maximum, 0.35 mGy/MBq), indicating that higher activities of radioiodine might be safely administered after exogenous stimulation with rhTSH. CONCLUSION: Indication of an influence of the residence time of radioiodine in the blood on the fractional uptake into thyroid remnant was found. A novel regimen is proposed in which therapeutic activities to be administered are determined from the individual specific blood dose.

Pacini F, Ladenson PW, Schlumberger M, Driedger A, Luster M, Kloos RT, Sherman S, Haugen B, Corone C, Molinaro E, Elisei R, Ceccarelli C, Pinchera A, Wahl RL, Leboulleux S, Ricard M, Yoo J, Busaidy NL, Delpassand E, Hanscheid H, Felbinger R, Lassmann M, Reiners C. · Section of Endocrinology, Department of Endocrinology and Metabolism, University of Pisa, Pisa, Italy. · J Clin Endocrinol Metab. · Pubmed #16384850 links to  free full text

Abstract: CONTEXT: After surgery for differentiated thyroid carcinoma, many patients are treated with radioiodine to ablate remnant thyroid tissue. This procedure has been performed with the patient in the hypothyroid state to promote endogenous TSH stimulation and is often associated with hypothyroid symptoms and impaired quality of life. OBJECTIVE AND INTERVENTION: This international, randomized, controlled, multicenter trial aimed to compare the efficacy and safety of recombinant human TSH (rhTSH) to prepare euthyroid patients on L-thyroxine therapy (euthyroid group) to ablate remnant thyroid tissue with 3.7 GBq (100 mCi) 131I, compared with that with conventional remnant ablation performed in the hypothyroid state (hypothyroid group). Quality of life was determined at the time of randomization and ablation. After the administration of the 131-I dose, the rate of radiation clearance from blood, thyroid remnant, and whole body was measured. RESULTS: The predefined primary criterion for successful ablation was "no visible uptake in the thyroid bed, or if visible, fractional uptake less than 0.1%" on neck scans performed 8 months after therapy and was satisfied in 100% of patients in both groups. A secondary criterion for ablation, an rhTSH-stimulated serum thyroglobulin concentration less than 2 ng/ml, was fulfilled by 23 of 24 (96%) euthyroid patients and 18 of 21 (86%) hypothyroid patients (P = 0.2341). Quality of life was well preserved in the euthyroid group, compared with the hypothyroid group, as demonstrated by their lower pretreatment scores on the Billewicz scale for hypothyroid signs and symptoms, 27 +/- 7 vs. 18 +/- 4 (P < 0.0001) and their significantly higher Short Form-36 Health Assessment Scale scores in five of eight categories. Euthyroid patients had a statistically significant one third lower radiation dose to the blood, compared with patients in the hypothyroid group. CONCLUSIONS: This study demonstrates comparable remnant ablation rates in patients prepared for 131I remnant ablation with 3.7 GBq by either administering rhTSH or withholding thyroid hormone. rhTSH-prepared patients maintained a higher quality of life and received less radiation exposure to the blood.

He H, Jazdzewski K, Li W, Liyanarachchi S, Nagy R, Volinia S, Calin GA, Liu CG, Franssila K, Suster S, Kloos RT, Croce CM, de la Chapelle A. · Human Cancer Genetics Program, Department of Pathology, Ohio State University, Columbus, OH 43210, USA. · Proc Natl Acad Sci U S A. · Pubmed #16365291 links to  free full text

Abstract: Apart from alterations in the RET/PTC-RAS-BRAF pathway, comparatively little is known about the genetics of papillary thyroid carcinoma (PTC). We show that numerous microRNAs (miRNAs) are transcriptionally up-regulated in PTC tumors compared with unaffected thyroid tissue. A set of five miRNAs, including the three most up-regulated ones (miR-221, -222, and -146), distinguished unequivocally between PTC and normal thyroid. Additionally, miR-221 was up-regulated in unaffected thyroid tissue in several PTC patients, presumably an early event in carcinogenesis. Tumors in which the up-regulation (11- to 19-fold) of miR-221, -222, and -146 was strongest showed dramatic loss of KIT transcript and Kit protein. In 5 of 10 such cases, this down expression was associated with germline single-nucleotide changes in the two recognition sequences in KIT for these miRNAs. We conclude that up-regulation of several miRs and regulation of KIT are involved in PTC pathogenesis, and that sequence changes in genes targeted by miRNAs can contribute to their regulation.

Marsee DK, Vadysirisack DD, Morrison CD, Prasad ML, Eng C, Duh QY, Rauen KA, Kloos RT, Jhiang SM. · Medical Scientist Program, The Ohio State University, Columbus, Ohio, USA. · Thyroid. · Pubmed #16187905 No free full text.

Abstract: Adenoviral gene therapy represents a novel approach for the treatment of aggressive thyroid carcinomas. Both coxsackie-adenovirus receptor (CAR) and integrins have been shown to be the major determinants for adenoviral infectivity in many types of cancer cells, yet conflicting results have been reported. In this report we examine these factors mediating adenoviral infection in thyroid cells and to evaluate CAR expression in various types of thyroid cancer. We found that neither expression levels of CAR nor integrins are solely predictive of adenoviral infectivity in thyroid cells. However, the absence of CAR was associated with poor adenoviral infectivity in immortalized rat FRTL-5 cells. Moreover, preincubation with alpha-CAR antibody decreased infectivity in FTC 238 cells, a human thyroid tumor line. These results indicate that CAR does play a role in adenoviral infection of thyroid cells. Immunohistochemical analysis revealed that CAR is expressed at the cell surface in the majority of malignant thyroid tumors. We further show that adenoviral infectivity in some thyroid cancer cells can be improved by poly-L-lysine. Our study warrants a functional method to evaluate adenoviral infectivity should be developed and instituted prior to clinical trials of adenoviral gene therapy in patients with advanced thyroid cancer.

Kloos RT, Mazzaferri EL. · Division of Endocrinology, Shands Hospital, 1600 SW Archer Road, P.O. Box 100226, Gainesville, Florida 32610-0226, USA. · J Clin Endocrinol Metab. · Pubmed #15972576 links to  free full text

Abstract: CONTEXT: Testing for residual differentiated thyroid carcinoma relies heavily upon recombinant human (rh)TSH-stimulated serum thyroglobulin (Tg) levels, but the positive predictive value is often low. OBJECTIVE: Our objective was to determine the accuracy of a single rhTSH-Tg measurement over time. DESIGN AND SETTING: We conducted a prospective follow-up study at the University referral center. PATIENTS: A total of 107 differentiated thyroid carcinoma patients were stratified according to their initial rhTSH-Tg as follows: group 1 with Tg less than 0.5 (n = 68), group 2 with Tg of 0.6-2.0 (n = 19), and group 3 with Tg greater than 2 ng/ml (n = 20). INTERVENTION: Clinical evaluations were conducted over 0.9-5.2 yr as follows: Tg during thyroid hormone suppression (n = 27), after rhTSH (n = 59), and/or after thyroid hormone withdrawal (n = 15). MAIN OUTCOME: Tumor was identified in one patient in each of groups 1 (1.6%) and 2 (5.5%), and 16 in group 3 (80%), comprising 19 tumor locations: 11 locoregional, two mediastinal, five lung, and one brain. Tumor was found in 81% with an initial or follow-up rhTSH-Tg greater than 2 ng/ml. TSH-stimulated Tg fell spontaneously to less than 0.5 ng/ml in 50% of group 2 and 5% of group 3 over 1.7-5.0 yr. The positive predictive value of the initial rhTSH-Tg greater than 2 ng/ml was 80%, and the negative predictive value was 98%. After retreatment, 100% of group 1, 74% of group 2, and 55% of group 3 had no evidence of tumor (P = 0.0001). CONCLUSIONS: 1) A single rhTSH-Tg greater than 2 ng/ml predicts persistent tumor, although no value entirely excludes future recurrence. 2) Repeated TSH-stimulated studies are appropriate for patients at risk of recurrence, especially those with an rhTSH-Tg greater than 1 ng/ml. 3) A single rhTSH-Tg less than 0.5 ng/ml without Tg antibody has an approximately 98% likelihood of identifying patients completely free of tumor, a large group in which TSH suppression to less than 0.1 mIU/liter and frequent imaging and TSH-stimulated Tg testing are unnecessary.

Prasad ML, Pellegata NS, Huang Y, Nagaraja HN, de la Chapelle A, Kloos RT. · Department of Pathology, The Ohio State University Medical center, Columbus, OH 43210, USA. · Mod Pathol. · Pubmed #15272279 links to  free full text

Abstract: The diagnosis of thyroid tumors is critical for clinical management; however, tumors with follicular architecture often present problems. We evaluated the diagnostic use of the protein expression of four genes that were found to be upregulated in papillary thyroid carcinoma compared to normal thyroid (LGALS3, FN1, CITED1 and KRT19), and of the mesothelial cell surface protein recognized by monoclonal antibody HBME1 in thyroid tumors. Tissues from 85 carcinomas (67 papillary, six follicular, eight Hürthle cell and four anaplastic) and 21 adenomas were evaluated by immunohistochemistry for the expression of these gene protein products, for example, galectin-3 (GAL3), fibronectin-1 (FN1), CITED1, cytokeratin-19 (CK19) and HBME1. Non-neoplastic thyroids (29 adenomatous and 14 thyrotoxic hyperplasia, and 59 normal) were also studied. The expression of all five proteins was significantly associated with malignancy, and highly specific (> or = 90%) for carcinoma compared to adenoma. GAL3, FN1 and/or HBME1 expression was seen in 100% of carcinomas (85/85) and in 24% of adenomas (5/21). Coexpression of multiple proteins was seen in 95% of carcinomas and only 5% of adenomas (P<0.0001). Coexpression of FN1 and GAL3 (FN1+ GAL3+, 70/85) or FN1 and HBME1 (FN1+ HBME1+, 53/85) was restricted to carcinomas, while their concurrent absence (FN1- GAL3- or FN1- HBME1-, 18/21 adenoma) was highly specific (96%) for benign lesions. Among non-neoplastic thyroids, adenomatous hyperplasia frequently expressed GAL3 (n=16), CK19 (n=9) and CITED1 (n=7), but the expression was predominantly focal in contrast to the diffuse expression in carcinomas. An immunohistochemical panel consisting of GAL3, FN1 and HBME1 may be useful in the diagnosis of follicular cell-derived thyroid tumors.

Prasad ML, Huang Y, Pellegata NS, de la Chapelle A, Kloos RT. · Department of Pathology, Ohio State University, Columbus, OH 43210-1296, USA. · Histopathology. · Pubmed #15228442 No free full text.

Abstract: AIMS: Focal papillary thyroid carcinoma (PTC)-like nuclear alterations have been documented in Hashimoto's thyroiditis; however, the molecular association between PTC and Hashimoto's thyroiditis is poorly understood. The aim of this study was to determine whether molecular expression patterns of PTC are present in association with PTC-like nuclear alterations in Hashimoto's thyroiditis. METHODS AND RESULTS: The expression of four genes known to be up-regulated in PTC [LGALS3 (galectin3), CITED1, KRT19 (cytokeratin 19) and FN1 (fibronectin-1)] and the human mesothelial cell protein identified by monoclonal antibody HBME1 was evaluated. Immunohistochemistry was performed on 23 cases of Hashimoto's thyroiditis with focal or diffuse Hürthle cell change and PTC-like nuclear alterations, 37 PTC and 18 normal thyroids. Focal expression of galectin3 (GAL3), CITED1, cytokeratin 19 (CK19), HBME1 and fibronectin-1 (FN1) was seen in 87%, 65%, 43%, 26% and 17% of Hashimoto's thyroiditis, respectively, only in thyrocytes showing PTC-like nuclear alterations. In contrast, diffuse expression of GAL3, CITED1, CK19, HBME1 and FN1 was seen in 100%, 95%, 70%, 87% and 89% of PTC, respectively. Normal thyroid tissues did not express any of these proteins. Following immunohistochemistry, four Hashimoto's thyroiditis cases were found to contain foci of PTC. These foci were highlighted by the diffuse and strong expression of PTC-associated proteins, which prompted additional retrospective scrutiny of the haematoxylin and eosin-stained sections leading to appreciation of complete PTC-type nuclear atypia. CONCLUSIONS: Focal PTC-like immunophenotypic changes in Hashimoto's thyroiditis suggest the possibility of early, focal premalignant transformation in some cases of Hashimoto's thyroiditis.

Burns JA, Morgenstern KE, Cahill KV, Foster JA, Jhiang SM, Kloos RT. · Department of Ophthalmology, Division of Oculoplastic Surgery, The Ohio State University, Columbus, Ohio, USA. · Ophthal Plast Reconstr Surg. · Pubmed #15083081 No free full text.

Abstract: PURPOSE: To report the finding of nasolacrimal drainage system obstruction associated with I(131) therapy for thyroid carcinoma from an updated and expanded cohort. METHODS: Patients with a history of epithelial derived thyroid carcinoma who had tearing were offered referral for evaluation by an oculoplastic surgeon. Patients underwent nasolacrimal probing and irrigation procedures with localization of their nasolacrimal obstruction. Therapy for the site of obstruction was instituted. RESULTS: Clinically significant tearing was identified in 26 patients, all of whom had previously undergone I(131) therapy (n = 563). Nineteen patients were evaluated and confirmed to have nasolacrimal drainage system obstruction; 7 have yet to be formally evaluated. Areas of obstruction included nasolacrimal duct, common canaliculus, and, rarely, distal upper and lower canaliculi. Patients were treated with a variety of modalities including silicone intubation, balloon dacryoplasty, dacryocystorhinostomy, and conjunctival dacryocystorhinostomy. CONCLUSIONS: The use of I(131) for thyroid carcinoma is associated with a 3.4% incidence of documented nasolacrimal drainage obstruction and an overall 4.6% incidence of documented or suspected obstruction. The true incidence may be higher, since - I(131) treated individuals were neither systematically evaluated nor questioned about tearing. It has yet to be established if the obstructions result from local toxicity caused by the passive flow of radioactive iodine containing tears through these tissues or the active uptake and concentration of I(131) in lacrimal drainage system tissues through the sodium/iodide supporter.

Prasad ML, Pellegata NS, Kloos RT, Barbacioru C, Huang Y, de la Chapelle A. · Department of Pathology, Ohio State University, Columbus, Ohio 43210, USA. · Thyroid. · Pubmed #15072698 No free full text.

Abstract: Molecular markers of papillary thyroid carcinoma (PTC) are relatively unknown. Recently, the CITED1 gene was reported to be greatly upregulated in PTC relative to normal thyroid. The CITED1 protein, a 27-kd transcriptional transactivator nuclear protein is expressed in PTC, melanocytes, breast epithelial cells, and several embryonic tissues. However, its expression in other thyroid masses and non-thyroid tumors is not known. We evaluated CITED1 protein expression in tissue microarrays comprising various thyroid and nonthyroid tissues by immunohistochemistry using a polyclonal anti-CITED1 antibody. CITED1 expression was seen in 63 of 68 PTC (93%), 3 of 12 follicular carcinomas (25%), 2 of 7 Hürthle cell carcinomas (28%), 2 of 21 adenomas (10%), 2 of 6 follicular neoplasms of undetermined malignant behavior (33%), and 2 of 24 nodular goiters (8%). Normal thyroids (n = 27), thyrotoxic hyperplasias (n = 14), and anaplastic thyroid carcinomas (n = 5) did not express CITED1. Among nonthyroid tumors, 6 of 23 melanomas (26%), 11 of 65 prostatic carcinomas (17%), 3 of 25 glioblastomas (12%), 4 of 67 breast carcinomas (6%), 1 of 49 lymphomas (2%), 1 of 65 lung carcinomas (2%), 1 of 68 colon carcinomas (2%), and none of 49 ovarian carcinomas (0%) expressed CITED1. The accuracy of CITED1 in differentiating PTC from benign thyroid nodules, other thyroid carcinomas, and nonthyroid carcinomas was 93%, 89%, and 94%, respectively. CITED1 is preferentially expressed in PTC and may be used as a diagnostic marker of it.